Lydia Stensberg, Pe
About Lydia Stensberg, Pe
Lydia Stensberg is a Sustainability Project Engineer at Arup with expertise in designing highly-efficient building systems and experience in decarbonization projects.
Title
Lydia Stensberg holds the title of Sustainability Project Engineer. She is currently working at Arup in Hong Kong SAR, beginning her tenure in 2022.
Current Role at Arup
Lydia Stensberg serves as a Sustainability Project Engineer at Arup, located in Hong Kong SAR, a role she began in 2022. In this position, she leverages her expertise in designing highly-efficient building systems, with a specific focus on the healthcare markets. Additionally, she contributes to decarbonization projects in the commercial and educational sectors.
Previous Positions at Arup
Prior to her current role, Lydia held multiple positions at Arup. From 2021 to 2022, she worked as a Sustainability Engineer in Hong Kong SAR. Earlier, from 2016 to 2021, she was a Mechanical Engineer based in the Washington D.C. Metro Area. Her tenure at Arup has provided her with diverse engineering experiences across different regions and project focuses.
Early Engineering Career
Lydia's early engineering career includes various internships and roles. In 2015, she served as a Design Engineer Intern at Nortek Global HVAC in O'Fallon, MO. In 2014, she was an Undergraduate Research Assistant at Columbia University in the City of New York. Additionally, she gained international experience as an Engineering Intern at Natureback Communities, Inc. in Madrid, Spain in 2013.
Educational Background
Lydia Stensberg has a strong academic foundation in engineering. She earned a Bachelor of Science in Mechanical Engineering from Washington University in St. Louis, completing her studies from 2014 to 2016. She also studied Mechanical Engineering at Universidad Carlos III de Madrid from 2013 to 2014. Additionally, she holds a Bachelor of Science in Physics from Beloit College, where she studied from 2011 to 2014.
Expertise in High-Performance Buildings
Lydia specializes in energy modeling for high-performance buildings. Her extensive background includes the design of highly-efficient building systems tailored to healthcare markets, as well as involvement in decarbonization projects for commercial and educational sectors. This skill set positions her as a valuable contributor to sustainable engineering initiatives.